Fruit-wrapping machine.



No. 639,375. Patented Dec. l9, I899. J. C. WILSON, Decd.

Z. T. GEORGE. Administrator. FRUIT WRAPPING MACHINE.

(Application filed Feb. 26, 1897.)

7 Sheets8heet I.

(.No Model.)

THE NORRIS PETERS cu, moroumu, wAsmNomm n. c.

Patented Dec. 19, I899. J. 0. WILSON, Decd. Z. T. GEORGE. Administrator. FRUIT WBAPPING MACHINE.

(Application filed Feb. 26, 1897.)

I 7 Sheets-Sheet 3. f3; 5.

.aiNo Model.)

m2 NORRIS PETIERS c0, PHOTD-LlTHD-. WASHINGYUN, u. c.

No. 639,375. Patented Dec. l9, I899. J. 6. WILSON, Decd. Z. T. GEORGE, Administrator. FRUIT WRAPPING MACHINE.

(Application filed Feb. 26, 1897.)

7 Sheets-SheetA.

{No Model.)

m: scams vzTzRs 1:9,. PMO'IO-LITHO" WASHINGTON. D. o

No. 639,375. Patented Dec. l9, I899.

- J. 0. WILSON, Decd.

Z T GEORGE Admlmstratur FRUIT WRAPPING MACHINE.

(Application filed Feb. 26, 1897.) (No Model.) 1 Sheets-$heet 5.

m: upnms PETERS C0,, PHOI'G uvuo. WASHINGTON, 11c.

No. 639,375. Patented Dec. I9, [899.

.1. c. WILSON, Decd.

Z. T. GEORGE, Administrator. FRUIT WRAPPING MACHINE.

(Application filed Feb. 26, 1897.)

(No Modal.) 7 Shec at s-Sheet 7,

ETE A ATE PATENT Fries.

ZAOHARY TAYLOR GEORGE, OF LOS ANGELES, CALIFORNIA, ADMINISTRATOR OF JOHN CLARK WILSON, DECEASED, ASSIGNOR TO SIMPSON G. WILSON;

OF SAME PLACE.

FRUIT-WRAPPING MACHINE.

SPECIFICATION forming part of Letters Patent No. 639,375, dated December 19, 1899.

Application filed February 26, 1897. Serial No. 625,208. (No model.) i

To all whom, it may concern:

Be it known that JOHN CLARK WILSON, deceased, who at the time of his decease was a citizen of the United States, residing at South Pasadena, in the county of Los Angeles and State of California, invented a new and useful Fruit-VVrapping Machine, of which the following is a specification.

This invention consists in a machine by means of which oranges, apples, and other globular fruits and bodies can be covered with wrappers of paper or other suitable material in such a manner that the same will not accidentally unwrap.

One object of the invention isto provide automatic means which will apply wrappers to oranges and other globular fruits and bodies in an economical and permanent manner and without injury to the fruit. This ma- 2o chine is designed to draw a wrapper tight upon the fruit and twist the overlap of the wrapper together in such a way as to prevent the wrapper from coming unwrapped from the fruit even though roughly handled or rolled about. This is accomplished byautoinatic means.

The machine is so constructed that any desirable number of wrapping devices can be arranged therein side by side to be operated simultaneously, the oranges or other fruits being fed into the machine through a num ber of chutes which respectively deliver'the fruits to the wrapping devices.

By this invention different-sized fruits or other globular bodies can be wrapped by one and the same machine. v

The accompanying drawings illustratethe invention.

Figure l is a side elevation of a machine embodying this invention and provided with five wrapping devices, so that the machine will simultaneously wrap five fruits. This view is from the side of the machine toward which the fruits are fed. Parts are broken away to show positions of parts which would otherwise be hidden in this view. Fig. 2 is a plan ofthe machine. Parts of the horizon; tal cam-shaft and frame which operate the fruit dropper and the wrapper-support are broken away to show parts beneath. The fruit-supports are open to allow the fruit to drop. Fig. 3 is a perspective fragmental detail illustrating one of the vertical cam shat'ts which actuate the wrapper-clamping appliances, the fruit-clamping device, and the fruit-rest. Fig. 4 is an end elevation of the machine looking from the right toward the left in Figs. 1 and 2. Fig. 5 is an elevation of the other end of the machine. Fig. 6 is a fragmental sectional elevation on line 6 6 looking toward the right in Figs. 1 and 2 and toward the left in Fig. 7. Two positions are indicated, one in dotted lines. Fig. 7 is a fragment-a1 side elevation at the end of the machine which is at the right in FigsQl and 2. Parts are broken away to show parts which would otherwise be hidden. This view is seen looking toward the paper-roll from the left in Fig. 6. Fig. 8 is a fragment-a1 sectional detail of parts shown in Fig. '7. 1 Line 8 S, Fig. 7, indicates the line of section and the arrow shows the direction of sight. The wrapper-clamps are shown closed and the orange-supports open. Fig. 9 is a fragmental plan view showing three of the wrapping devices in detail. The several clamping appliances are shown open. The several fruitclamps are shown turned to different positions to show the various positions the belts and the rests therefor assume when the fruitclamps rotate. Fig. 10 is a fragmentalsectional detail on line l0 l0, Fig. 9. The arrow on said line indicates the direction of sight. Fig. 11 is a plan of the fruit-clamp detached and open. Fig. 12 is an enlarged section of the fruit-clamp on line l2 12, Fig. 11. Fig. 13 is a plan detail of the fruit and wrapper clamping appliances. Solid lines indicate the position of parts when the fruit and wrapper are clamped. Dotted lines indicate the position of parts when the clamps are open. Fig. 14: is a fragmental detail, partly in section, illustrating the paper-cutting mechanism. Fig. 15 is a sectional elevation of the same on line 15 15, Fig. 14. The arrow in Fig. let indicates the dir'ectionof sight' A indicates the frame of the machine;

1 indicates a driving-pulley on a drivingshaft 2, through which power is applied to the machine from a belt 1; but it is to be understood that power may be applied through any other means desired. In case of a small mae I of a device for holding the ends of a fruitcontaining wrapper, a device for clam ping the wrapper and the fruit contained therein, and means for causing the rotation of one of such devices with relation to the other. A rotary fruit-clampingdevice and means for rotating such device are preferably provided to rotate the fruit and its wrapper while the ends of the wrapper are held stationary by the clamp. B indicates in a general manner the rotary fruit-clamping device.

0 indicates a pulley mounted on the driving-shaft 2, and D is a belt running around said pulley and running around said fruitclamping device and adapted to be driven by the driving-pulley O and to rotate the fruitclamp B. Means are provided for holding the fruit-clamp normally released in combination with means for closing and rotating the clamp, so that when the means for closing and rotating the clamp are relaxed the clamp will be thrown open to release and to receive the fruit. The springs Z) operate to hold the jaws h withdrawn from the center of the clamping device to allow a fruit to enter or to fall from the clamping device.

The fruit-clamping device comprises the combination of a frame 13, mounted to rotate and provided with a central opening I)", through which a fruit can pass, reciprocating rods 11, arranged radiating from said opening and adapted to move axially through the frame toward the center of the opening, the fruit-clamping heads 1), arranged on the inner ends of said rods, respectively, belt-retaining means, such as the hook portion b, arranged on said rods at the outer end thereof, a belt D, passed around said belt-retaining means and around the driving pulleys C c and around the guiding and sustaining pulleys c, c',0", 0, and c" and suitable intermittent belt tightening and releasing means for tightening and releasing the belt to move the clamprods in and out axially, thus to cause the fruitclamps b to clamp the fruit and at the same time cause the belt to be driven by pulleys O c" to rotate the fruit-clamp until the belt is again relaxed and the springs b throw the rods 19" outward to Withdraw the, fruit-clamping pieces I) from the fruit to release the fruit. Any suitableyielding means may be employed for normally holding the rods 17 outward. In the drawings is shown a helical spring around the rods and arranged to engage the frame B and the rods 19 to hold the clampjug-pieces I) normally outward against the frame. The rotary clamp is carried by ballbearing b 19 indicates screws in the bearing-plate B extending into an annular peripheral groove Z) to form stops to hold the rotary frame of the fruit-clamp in position on the balls of the bearing.

2 indicates a shaft connected with drivingshaft 2 by sprocket-chain 2 and carrying belt-driving pulleys c.

The intermittent means which are provided for tightening and releasing the belt comprise a weight O',having a pulley 0", which is hung upon the belt D, thus to hold the same taut, and this weight is of sufficient gravity to readily overcome the yielding means, such as the springs b,which hold the fruit-clamp open,

and to draw'the clamping-rods b and the clamp-pieces b inward toward the center of the opening 19' and to clamp the fruit tightly between the clamp heads or pieces I). The fruit-clamping heads I) are arranged in a circle and adapted to move toward and from a common center and are connected together with elastic strips b, arranged in chords'of said circle, so that when a fruit falls into the circle its sides will first engage the elastic strips and be thereby centered and held in position until the clamps can be brought against the fruit to clamp it.

In practice the power-shaft 2 and the pulley G will rotate continuously while the machine is in operation; but itis not desirable to continuously rotate the fruit-clamps. So long as the weight 0 holds the belt D taut the pulley C will drive said belt. Suitable means are provided for lifting the weight to allow the belt to loosen, and when the weight is lifted and the belt loosened the pulley C will rotate freely without driving the belt, and at the same time the springs 17 will hold the fruitclamp open to allow the introduction thereinto and removal therefrom of fruit.

E indicates a cam-shaft which isconnected with the driving-shaft 2 by any suitable means, such as sprocket wheels and chains 3, 4, 5, 6,

. 7 and 8.

e is a camon the cam-shaft 'E, arranged to engage a head E, which carries a rod f, which is fastened to the weight-support f. The c'am e is of such shape that during a portion of the rotation of the cam-shaft E it will lift the head F sufficiently to cause the weight-support f to lift the weight 0, thus to loosen the belt D, so that the driving-pulley G will not drive the belt, and during another part of therotation of the shaft E the head F falls suflicientlyto lower the weight-supportf from the weight, thus to allow the weight to hold the belt D taut. The weight-support head 1 is preferably a lever hinged to the frame A of the machine, as indicated at d, Figs. 4, 5, and 6, and the weight-supporting cam e is preferably oval in form and eccentrically arranged upon the shaft E, so that the raising and lowering of the weight are accomplished without any unduest-rain or jerking.

6' indicates the fruit-dropper cam, which is fastened upon the shaft E and is arranged to operate the fruit-dropping device G and also to raise and lower the wrapper-support H.

The weight-supporting cam e and fruitdropper cam e are arranged in such relation to each other that the fruit-dropping device will be operated to drop the fruit onto the wrapper held by the wrapper-support H and thence through into the fruit-clamping device at such a time as the fruit-clamping device will be open to receive the fruit.

I indicates a fruit-support arranged to reciprocate horizontally to be brought under and removed from beneath the fruit-clampingdevice to receive the fruit when it falls into the clamping device and to be withdrawn from beneath the fruit after t he wrapping has been completed, thus to allow the fruit when released by the clamps to fall down into a chute J, which conducts it to a carrier J, which,

carries it away from the chute.

B B are two wrapper-clamping members with bent faces crossing each other, and Z) b are yielding means for normally holding the angles of the bent faces apart to form the opening to allow a fruit to pass between the members B B and suitable means are provided for moving such members to close said opening, as in Fig. 13. Said members are preferably composed of wires, and the yielding means 11 b for holding the bent faces apart to form the fruit-receiving opening are preferably formed of india-rubber bands or other springs, which are fastened to the wires and arranged to draw the wires across each other to form an opening through which the fruit can drop.

B B indicate two wrapper-clamping jaws, and means are provided to open and close these jaws centrally above the fruit-clamping device B and also above the wrapper-clamping members B and B The wrapper-clamping members are arranged transverse said jaws and play toward and from each other in a plane parallel with the plane of the jaws. The fruit-clamp rotates around a vertical axis, and the clamping jaws and members move in horizontal planes parallel with each other and having such axis midway between them. The angles of the bent clam ping-faces of the wrapper-clamping device move horizontally and are virtually at all times of their movement in a vertical plane which extends midway between said jaws. Various means may be provided for moving the bent faces of the wrapper-clam ping members toward and from each other to clamp the wrapper between the clamped fruit and the wrapper-clamping jaws l3 and B but where such clamping members are wires, as shown, this is accomplished by fastening one end of the wires to a movable support B while the other end is fastened to another support B When the movable wire-support B is drawn away from the wrapper-clamping jaws B B this straightens the wires to an extent,overcoming the springs 19 b and drawing the angles of the bent wires 13- B toward each other into the position shown in solid lines in Fig. 13. The wiresare arranged to normally stand close above the top of the rotary fruit-clamp, as shown in Figs. 6 and 10, so that they will ordinarily be slightly below the top of the fruit in such clamp, so that when the wires are drawn to bring their angles together above the fruit the wires will draw the wrapper tightly up over the fruit. The flexibility of the wires especially adapts them to thus draw the wrapper tightly over the top of the fruit. They will bend to conform to the top of the fruit and will slide up over the fruitaud hold the wrapper tightly thereagainst.

K K indicate two vertical cam-shafts, each of which is provided with four cams 70, k, and 76m. The cams 7c operate the fru.it-sup portI to slide it beneath the fruit-clamp and withdraw it from under the fruit-clamp. The cams 7t" 7t operate the wrapper-clam ping jaws B B3, and the cam operates the clamp members orwires B 13 The cam la operates against a bar 13 which forms the movable, supportof the ends of the wires at one side of the clamp, and the springs, b I) draw the wires B B and thus return the movable bar B when the cam is withdrawn therefrom. The cams 7r. 7r operate to throw two movable bars B B in opposite directions. The bar B is connected to the wrapper-olampingjaw B by rods and the bar B is connected to the wrapper-clamping jaw 13 by rods b 12 indicates spring connections by which the rods Z2 are fastened to their respective bars 13 and B so that the pressure exerted upon the wrapper by the jaws B and B will be yielding, thus to accommodate the different thicknesses of folded wrapper which may be clamped between such jaws. Preferably the cams 71: and k are arrangedto draw the jaws B and B together to clamp the wrapper an instantbefore the wires B and B clamp the wrapper, so that the wrapperwhen clamped between the jaws l3- and B will be somewhat spread out, and the wires then draw the wrapper together, thus tightening it over the fruit. The vertical cam-shaft K and the horizontal cam-shaft E are connected together by gearing 6 and k and the several parts are so timed in their operation that the cam 6 will operate the fruit-dropper first, thus allowing the fruit to drop through onto a wrapper upon the wrapper-support H and through the wrapper-support H down onto the fruit-support I. Then the cams 71: and 7c" operate the clampjaws B B to clamp the wrapper in one direction, and the cam 70" operates the clamp members or wires B? and B to clamp the wrapper in the otherdirection. Then the cam e removes from the head F, thereby lowering the weight-supportf" and allowing the weight 0 to draw the belt taut, thus to clamp the fruit and wrapper and rotate the same, thus twisting the wrapper tightly at the places where it isclamped. A further rotation of the shafts E and K causes the cam 71: to move the fruit-restbar 2', thus to cause the fruitrest I to withdraw-from beneath the fruit, and such rotation also causes the cam c to again IIO lift the head F, thus to raise the weight-support f and lift the weight to loosen the belt D and allow the springs Z) to open the fruitclamp and allow the fruit to drop into the chute J and pass out of the machine.

L indicates the chute which delivers fruit to the machine.

L indicates a rotating roller provided with pins arranged at the end of the chute L to receive the fruits between the pins Zand deliver them one by one into a chute L, which delivers the fruit to the fruit-dropper G. The fruit-dropper G comprises two bars 9 9, arranged on a support g to slide horizontally toward and from each other.

g indicates a vertically reciprocating wedge or moving slide with outwardly-diverging guideways g 9 in which the fruit supports or bars 9 g are embraced. A slide or wedge g is provided at each end of the machine, and the fruit-supporting bars 9 g are adapted to move horizontally toward and from each other, and they extend from end to end of the machine, beneath the ends of the several chutes L, and are simultaneously operated on by the said wedge-slides g They are slightly hollowed at intervals, as at g, to conform to the fruit. The wrapper support H is carried by the rod m, and is thereby connected with the slide or wedge 9 and when the wedge-slides g are lowered the wrappersupport H moves downward toward the fruitclamp and the falling fruit carries the wrapper down with it into the fruit-clamp. The fruit-feeding roller L is connected with'the shaft 9, which carries the sprocket-wheel 6,

' by suitable gearing, such as the sprocketwheels and chain 10, 11, and 12, and is timed to feed one fruit to each revolution of the shaft E. The fruit-dropping slide g and the wrapper-support H are connected with the fruit-dropper head M by the rod m, and the cam c is in form a segment of a circle greater than half a circle, so that the fruit-dropper slide and the wrapper-support are held in their elevated position throughout a greater portion of the revolution of the shaft E, thus giving plenty of time for the fruit and the wrapper to take position upon their respective holders. The heads M are hinged, to the frame, as at a.

N N indicate a pair of wrapper-feeding rollers carryingendless wrapper-feeding belts N. Said rollers extend on opposite sides of the fruit-dropping device, and two of said wrapper-feeding belts are provided beneath each of the fruit-dropping'chntes L, one on each side of the path, through which the fruit will drop'from such chute. The rollers N N are connected by sprocket-wheels and chain n n n, and the whole is driven by sprocket chain 91'', which is driven by sprocket-shaft O, which receives power from shaftE through sprocket-chain O.

P P indicate the parallel paper-cutting rollers and shaft geared together by cogs p p to rotate at the same speed. 132 indicates a sprocket-chain driven by shaft E and driving the paper-cutting shaft P, which carries a paper-cutting knife P, arranged to strike into the knife-receiving groove P in the paper-cutting roller P at each rotation of the roller and shaft. The knife and groove extend along the peripheries of the shaft and roller, respectively.

Q Q indicate two paper-feeding rollers which are geared together by gears q q and are driven by a sprocket-chain Q which takes its power from shaft 0. t

R indicates paper reels or rolls mounted on their axles 4*, which are detachably journaled in brackets r. The paper is led from the reels through between the paper-feeding rollers Q Q and paper-cutting roller and shaft P P and under the wrapper-feedingroller N and belts N. I

S indicates a wrapper receiving table, on the top of which are wires 5 to support -the wrappers as they pass from the cutter-roller and shaft PP to the vertically-movingwrap per-support H. The wrapper-feeding roller N is provided with flaps n consisting of stiff leaves of flexible material, such as leather or oil-cloth, fastened by one edge to the rollers and curved around the roller and which fall toward the table as the roller revolves and fall upon the paper as it comes from the cutters P P and flatten it down upon the table, so that it will readily and without fail pass beneath the wrapper-feeding roller N and belts N.

The inner edge of the wrapper-table is provided with notches s, which allow the projecting ends of the wrapper-carrying wires h of the wrapper-supports H to pass up to form a continuation of the track formed by the wires 5. Inv practice the paper passes from the rolls R and thence between the rollers Q Q and cutters P P and is there cut into the proper size for wrappers, and the wrapper passes thence over the table and onto the wrapper-support and is lowered by said support whenever a fruit is dropped and is carried down by such fruit through the hole It in the support H and between the clamps, where it is clamped and twisted about the fruit.

19* indicates springs to force the wrappercutting knife P into the groove P. The shank of the knife rides in a cam-collar P which is shaped to retract the knife into the shaft P, but is provided with an offset or notch p approximately between the axes of the roller and shaft, which allows the knife to be suddenly released, when it is in position to be shot by the springs 19 into the groove P. This instantly cuts the paper. The edge of the knife is deeply serrated, so that the cutting-is accomplished without displac ing the paper.

T indicates an elevator chain or belt which is provided with pins t to lift the fruits from fingers 6, onto which theyare placed by a supplemental carrier-chainj, which receives the fruit from the main fruit-carrier J.

U U indicate two sprocket-chains for communicating power from shaft E to shaft 0, from which the motion is imparted to the paper-feeding rollers Q, Q.

a u indicate two sprocket-wheels of different sizes mounted on the shaft 0 and respectively receiving their power from the sprocketchains UU, which are driven by the sprocketwheels 6 e, which are driven by the shaft E, on which they are mounted. In practice only one of the sprocket-wheels a or to will be fixed to the shaft 0 at the same time, so that when it is desired to run the wrapper cutting and feeding mechanism to deliver one-sized wrap per for small fruit the smaller wheel Ll will be fixed to the shaft 0 and the larger wheel t6 loose, thus to drive the wrapper feeding and cutting device with greater rapidity with relation to the shaft E and the consequent dropping of fruit; but if large fruit is to be wrapped and large wrappers therefore required the small sprocket-wheel to will be released from the shaft 0 and the large sprocketwheel a will be fixed to the shaft 0, thus to make the she ts run slower. 11. a indicate set-screws for fastening the wheels to and releasing them from the shaft 0. Any other suitable gearing may be substituted for this to change the speed of the shaft 0 with relation to the shaft E.

In practical operation the fruits are fed into the chutes L, down which they roll until they are taken up by thepins Fof the roller L and delivered into the chutes L, down which they roll until they pass out of the ends of the chutes L and fall upon the fruit-rests g g. In the meantime the operation of the machine has caused a wrapper to be severed from the sheet of paper 7', and the same has been deposited upon the holder H. The cams 6 then release the heads M and allow the Wedge g to descend to force the fruit-supports g g apart, thus allowing the fruit to drop, and at the same time the wrappersupport H lowers so that the fruit is caught by the wrapper while the wrapper is moving down ward. The

fruit then forces the wrapper through the hole .77, and both fall together between the open clamps into the twisting device. The cams 70' and 7t operate the bars B B to draw the clamp-jaws B B together to clamp the overlap of the Wrapper, and the cam k throws the bar 13 to draw the clamp-Wires B B to draw the wrapper tight over the top of the fruit and compress it into astem beneath the jaws B B The cams c then release the head F and allow it to fall, thus Withdrawing the support f from the weight 0. This tightens the belt D, thus forcing in the clamp-heads b and rotating the fruit-clamp B, thereby twisting the neck of the wrapper while it is held by the clamps and forming a bond in said twist which does not readily become free. The cams e and c then operate their respec- .bring the angles of the Live heads F and M, and the weight being lifted by the weight-supportf' loosens the belt D and the springs 17 throw the heads I) outward to release the fruit. Then the cam throws the bar 2' to withdraw the fruit-support I from beneath the fruit, which then falls into the chute J, which conducts it to the carrier J whence it passes to the elevator and out of the machine.

The cam 7.; is slender, so that it throws the bar t' quickly, and the other cams are broader, so as to move their respective bars more slowly. The cams 7e, 7e, and 7t operate in frames to w w at the ends oft-heir respective bars, so as to throw the bars and return them fully at each complete rotation of the shaft.

Now, havingdescribed the invention, What is claimed as new, and desired to be secured by Letters Patent, is j '1. The combination of fruit holding and rotating mechanism; a pair of wrapper-clamping jaws arranged to close centrally above such mechanism; means for operating said jaws; two wrapper-clamping members each of which has an angularly-recessed clampingface, and both of which are arranged to play between the fruit holding and rotating mechanism and the wrapper-clamping jaws; and means for moving said members toward each other and for holding them together and for retracting them from each other.

2. The combination of fruit holding and rotating mechanism apair of wrapper-clamping jaws arranged to clo e centrally above such mechanism; means for operating said jaws; a bent wire crossing said jaws between the plane of the fruit holding and rotating mechanism and the plane of the jaws; a like bent wire arranged in like manner, but in reverse position, so that the extended axis of the fruit-rotating mechanism is between the angles; meansfornormally holding theangles of said wires apart; and means for moving said wires to draw the angles thereof toward said extended axis.

3. In a wrapper-clampingdevice fora fruitwrapping machine, the combination of two wrapper-clamping jaws with means to open and close them; and two wrapper-clamping members having bent clamping-faces crossing each other and arranged transverse said jaws with their angles virtually in a vertical plane which extends midway said jaws; and

means for moving the bent faces of the wrapper-clamping members toward and from each other.

4. In a wrapper-clamping device for a fruitwrapping machine, the combination of two bent Wires arranged crossing each other; means for normally holding the ends of the wires stationary; means for normally holding the respective angles of the wires apart; and means for moving the ends of the Wires to wires toward each other.

5. The combination of a fruit clamping and rotating device; wrapper-clamping jaws ar ranged to close to clamp toward the extended axis of the fruit-clamp; two wires arranged in a plane which extends between the planes of said fruit-clamp and said jaws, and having one end of each wire fastened to a support at one side of said axis, and the other ends of said wires fastened to a support on the other side of said axis; resilient means for holding the wires bent, and normally crossed on opposite sides of said axis; and means for drawing the bends of the wires toward each other.

6. The combination of fruit holding and rotating mechanism; two wrapper-clamping jaws arranged to close centrally above such mechanism; two bars arranged on opposite sides, respectively, of said mechanism; rods connecting the bars with the jaws respectively, the bar which is on one side of said mechanism being connected with the jaw which is on the other side of said mechanism, and vice versa; means for normally holding the bars toward each other; and means for moving said bars from each other.

7. The combination of fruit holding and rotating mechanism; two wrapper-clamping jaws arranged between two bars to close centrally above such mechanism; one of said bars operatively connected with thejaw which is farthest from it; the other of said bars operatively connected with the otherjaw; means for normally holding the bars toward each other; and rotating cams between said bars arranged to simultaneously actuate said bars to move them apart.

8. The combination of two bars arranged to move toward and from each other; two

jaws arranged between said bars; means connecting one of the bars with the jaw which is farthest from it; means connecting the other of the bars with the other jaw; and means for moving the bars toward and from each other.

9. The combination of two bars arranged to move toward and from each other; two jaws arranged between said bars; rods connected by springs with one of said bars and connected slidingly with the jawnearest such bar, and fixed to the farthest jaw; rods connected by springs with the other of said bars and connected slidingly with the jaw nearest said bar and fixed to the jaw farthest from said bar; and means for moving the bars toward and from each other.

10. The combination of fruit holding and rotating mechanism; two wrapper-clamping jaws arranged between two bars to close centrally above such mechanism; one of said bars operatively connected with the jaw which is farthest from it; the other of said bars operatively connected with the other jaw; means for normally holding the bars toward each other; two wrapper-clamping members each of which has an angularly-recessed clampingface and both of which members are arranged to play between the planes of the fruit holding and rotating mechanism and the wrapperclamping jaws; means connected with said members to move them to draw the angles thereof toward each other; rotating cams connected together and arranged to respectively actuate the bars to move them apart, and the wrapper-clamping members to move them toward each other.

11. The combination ofawire-support; two wires fastened thereto at a distance apart and crossed upon each other and bent and recrossed upon each other and fastened to a movable wire-support; resilient means connected with a support and with one of said wires at the angle thereof; resilient means connected with a support and with the other wire at the angle thereof; and means for moving the movable wire-support from and toward the other wire-support.

12. The combination of a fruit holding and rotating clamp; means for operating said clamp to close and release the same; a fruitsupport arranged below said clamp; means for moving the fruit-support horizontally; wrapper-clam ping jaws arranged to close centrally above the fruit-clamp; wrapper-clamping members arranged between the fruitclamp and the wrapper-clamping jaws to move in the path toward and from each other in a path parallel with the plane of said jaws, but in directions transverse to the direction of the jaws; means for operating the jaws; means for operating the clamping members; means for operating the fruit clamp, and means for rotating said clamp.

13. The combination of a frame mounted to rotate and provided with an opening through which a fruit can pass; reciprocating rods arranged radiating from said opening and adapted to move axially; fruit clamping pieces arranged on the inner ends of said rods respectively; yielding means for normally holding the rods outward; belt retaining means arranged on said rods; an endless belt passed around said belt-retaining means and around a driving-pulley and around guiding and sustaining pulleys; said pulleys; and intermittent means for tightening and releasing the belt to move the clamp-rods axially and to rotate the frame.

14. The combination of a frame mounted to rotate and provided with an opening through which a fruit can pass; reciprocating rods arranged radiating from said opening and adapted to move axially; fruit clamping pieces arranged on the inner ends of said rods respectively; yielding means for normally holding the rods outward; belt retaining means arranged on said rods; an endless belt passed around such retaining means and around a driving-pulley'and around guiding and sustaining pulleys; such pulleys; a weight provided with a pulley hung upon said belt; and means for lifting the weight to allow the belt to loosen.

15. The combination of a rotary frame provided with an opening through which a fruit may pass; reciprocating rods fastened to the rotary frame and arranged radiating from said opening; fruit-clamping heads arranged ICC on the inner ends of said rods respectively; elastic strips fastened to and extending between the ends of said fruit-clamping heads; and means for simultaneously sliding said rods axially. V

16. Fruit-clam ping heads arranged in a circle and adapted to move toward and from a common center and connected together with elastic strips arranged in chords of said cirole; and means for moving said fruit-clamping heads toward and from the center.

17. The combination of fruit clamping heads arranged in a circle and adapted to move toward and from a common center; and elastic strips arranged in chords of such circle.

18. The combination of a rotary fruit and wrapper clamp provided with an opening through which a fruit can pass; a movable fruit-rest arranged below such clamp and adapted to support a fruit in said clamp; Wrapper-clamping means arranged above said rotary clamp; a wrapper-support above said wrapper-clamping means and provided with a hole through which a fruit can pass; means for placing a wrapper on the wrapper-support; means for dropping a fruit onto such wrapper and through said hole and into said clamp, and onto said fruit-support; means for actuating the wrapper-clamping means; means for closing and rotating the fruitclamp; andmeans for moving the fruit-rest.

19. The combination of a rotary fruit and wrapper clamp provided with an opening through which a fruit can pass; a movable fruit-rest arranged below such clamp and adapted to support a fruit in said clamp; wrapper-clam ping means arranged above said rotary clamp; a wrapper-support above said wrapper-clamping means and provided with a hole through which a fruit can pass; means for placing a wrapper on the wrapper-sup port; means for dropping a fruit onto such wrapper over said hole; means operatively connected with said fruit-dropping means for moving the wrapper-support toward the fruitclamp simultaneously with the dropping of the fruit; means for actuating the wrapperclamping means; means for closing and rotating the fruit-clamp; and means for moving the fruit-rest.

20. In a fruit-wrapping machine, a vertically-moving wrapper-support provided with an opening through which a fruit can pass.

21. The combination with a fruit-rotating clamp and a fruit-dropping device; of a wrapper-support and means operatively connected with the fruit-dropping device for moving the wrapper-support toward the fruitclamp.

22. The combination of two fruit-supports arranged to move toward and from each other in a horizontal plane; and a vertically-reciprocating wedge arranged to move said supports horizontally.

23. The combination of two fruit-supports arranged to move toward and from each other in a horizontal plane; a vertically-reciprocating wedge arranged to move said supports horizontally and a wrappcrsupport arranged below the fruit-supports and connectedwith the wedge to move vertically therewith and provided with a hole through which a fruit can pass.

24. The combination of a paper -reel; a

roller provided along its periphery with a groove; a knife-carrying shaft arranged parallel with said grooved roller and jonrnaled to revolve; gearing connecting the roller and shaft to cause them to rotate at the same speed; a knife mounted in guides in said knife-carrying shaft and arranged to move into and out of-the groove; springs for throwing the knife into the groove; means for returning the knife againstthe pressure of the springs and for releasing the knife when it is in position to enter the groove; feed-rolls'between the paper-reel and the knife to feed the paper to the knife; a wrapper-support arranged beneath a fruit-dropping device; such fruit-dropping device; means for moving severed sheets from the knife to the wrapper-support; means for intermittently actuating the fruit-dropping device; and means operatively connecting the paper-cutting roller and shaft with said means for actuating the fruit-dropping device.

25. The combination of a paper-cutting device with rolls on one side of such device for feeding paper thereto; a paper-reel to feed paper to the rolls; a paper-receiving table on the opposite side of the cutting device; a pair of rollers; and bands around the pair of rol1- ers and arranged to move across the face of the table.

26. The combination of a paper-cutting device witlh rolls on one side of such device for feeding paper thereto; a paper-reel to feed paper to the rolls; a paper-receiving table on the opposite side of the cutting device; a pair of rollers, one of whichis arranged above such table and is provided with a series of flaps eX- tending part way around said roller and arranged to fall toward the table as the roller revolves; and bands around the pair of rollers and arranged to move across the face of the table.

27. The combination of a fruit-support; a rotating fruit-clamparranged above such support and provided with an opening through which a fruit can pass; wrapper-clamping means arranged above said fruit-clamp; a belt arranged over pulleys and adapted to close and rotate the fruit-clamp; a wrappersupport provided with a hole above the opening in the fruit-clamp and arranged to move vertically; a fruit-dropping device arranged above the wrapper-support; a wrapper-re ceiving table; a paper-reel; a paper-cutting device; rolls for feeding paper from the reel to the cutting device and onto the wrapperreceiving table; means for moving the fruitwrapper from the cutting device to the wrap- IIO per-support; a Weight arranged to hold the with the cam-shaft to eause them to rotate belt of the fruit-clamp taut; a movable supsimultaneously. port for said Weight; a cam-shaft provided ZACHARY TAYLOR GEORGE,

with cams arranged to operate the wrapperl Adm'im'strator, of the estate of John Clark clamping means and to move the fruit-supl Wilson, deceasedl port; a cam-shaft geared thereto and arranged I Witnesses: to raise and lower the weight-support; and JAMES R. TOWNSEND,

means connecting the paper-feeding device SIMPSON G. WILSON. 

